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privacy: Remove (Non)ShallowEffectiveVis
Use a boolean constant parameter instead. Also turn some methods on `DefIdVisitor` into associated constants.
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d326aed46f
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17edd1a779
@ -73,14 +73,10 @@ impl<'tcx> fmt::Display for LazyDefPathStr<'tcx> {
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/// in `impl Trait`, see individual comments in `DefIdVisitorSkeleton::visit_ty`.
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trait DefIdVisitor<'tcx> {
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type BreakTy = ();
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const SHALLOW: bool = false;
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const SKIP_ASSOC_TYS: bool = false;
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fn tcx(&self) -> TyCtxt<'tcx>;
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fn shallow(&self) -> bool {
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false
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}
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fn skip_assoc_tys(&self) -> bool {
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false
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}
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fn visit_def_id(
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&mut self,
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def_id: DefId,
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@ -129,11 +125,7 @@ where
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fn visit_trait(&mut self, trait_ref: TraitRef<'tcx>) -> ControlFlow<V::BreakTy> {
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let TraitRef { def_id, substs, .. } = trait_ref;
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self.def_id_visitor.visit_def_id(def_id, "trait", &trait_ref.print_only_trait_path())?;
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if self.def_id_visitor.shallow() {
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ControlFlow::Continue(())
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} else {
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substs.visit_with(self)
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}
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if V::SHALLOW { ControlFlow::Continue(()) } else { substs.visit_with(self) }
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}
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fn visit_projection_ty(&mut self, projection: ty::AliasTy<'tcx>) -> ControlFlow<V::BreakTy> {
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@ -152,7 +144,7 @@ where
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)
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};
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self.visit_trait(trait_ref)?;
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if self.def_id_visitor.shallow() {
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if V::SHALLOW {
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ControlFlow::Continue(())
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} else {
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assoc_substs.iter().try_for_each(|subst| subst.visit_with(self))
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@ -222,7 +214,7 @@ where
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| ty::Closure(def_id, ..)
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| ty::Generator(def_id, ..) => {
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self.def_id_visitor.visit_def_id(def_id, "type", &ty)?;
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if self.def_id_visitor.shallow() {
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if V::SHALLOW {
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return ControlFlow::Continue(());
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}
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// Default type visitor doesn't visit signatures of fn types.
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@ -243,7 +235,7 @@ where
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}
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}
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ty::Alias(ty::Projection, proj) => {
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if self.def_id_visitor.skip_assoc_tys() {
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if V::SKIP_ASSOC_TYS {
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// Visitors searching for minimal visibility/reachability want to
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// conservatively approximate associated types like `<Type as Trait>::Alias`
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// as visible/reachable even if both `Type` and `Trait` are private.
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@ -255,7 +247,7 @@ where
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return self.visit_projection_ty(proj);
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}
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ty::Alias(ty::Inherent, data) => {
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if self.def_id_visitor.skip_assoc_tys() {
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if V::SKIP_ASSOC_TYS {
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// Visitors searching for minimal visibility/reachability want to
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// conservatively approximate associated types like `Type::Alias`
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// as visible/reachable even if `Type` is private.
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@ -271,7 +263,7 @@ where
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)?;
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// This will also visit substs if necessary, so we don't need to recurse.
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return if self.def_id_visitor.shallow() {
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return if V::SHALLOW {
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ControlFlow::Continue(())
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} else {
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data.substs.iter().try_for_each(|subst| subst.visit_with(self))
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@ -333,11 +325,7 @@ where
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}
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}
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if self.def_id_visitor.shallow() {
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ControlFlow::Continue(())
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} else {
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ty.super_visit_with(self)
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}
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if V::SHALLOW { ControlFlow::Continue(()) } else { ty.super_visit_with(self) }
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}
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fn visit_const(&mut self, c: Const<'tcx>) -> ControlFlow<Self::BreakTy> {
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@ -354,22 +342,20 @@ fn min(vis1: ty::Visibility, vis2: ty::Visibility, tcx: TyCtxt<'_>) -> ty::Visib
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/// Visitor used to determine impl visibility and reachability.
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////////////////////////////////////////////////////////////////////////////////
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struct FindMin<'a, 'tcx, VL: VisibilityLike> {
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struct FindMin<'a, 'tcx, VL: VisibilityLike, const SHALLOW: bool> {
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tcx: TyCtxt<'tcx>,
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effective_visibilities: &'a EffectiveVisibilities,
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min: VL,
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}
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impl<'a, 'tcx, VL: VisibilityLike> DefIdVisitor<'tcx> for FindMin<'a, 'tcx, VL> {
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impl<'a, 'tcx, VL: VisibilityLike, const SHALLOW: bool> DefIdVisitor<'tcx>
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for FindMin<'a, 'tcx, VL, SHALLOW>
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{
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const SHALLOW: bool = SHALLOW;
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const SKIP_ASSOC_TYS: bool = true;
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fn tcx(&self) -> TyCtxt<'tcx> {
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self.tcx
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}
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fn shallow(&self) -> bool {
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VL::SHALLOW
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}
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fn skip_assoc_tys(&self) -> bool {
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true
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}
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fn visit_def_id(
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&mut self,
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def_id: DefId,
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@ -385,17 +371,19 @@ impl<'a, 'tcx, VL: VisibilityLike> DefIdVisitor<'tcx> for FindMin<'a, 'tcx, VL>
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trait VisibilityLike: Sized {
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const MAX: Self;
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const SHALLOW: bool = false;
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fn new_min(find: &FindMin<'_, '_, Self>, def_id: LocalDefId) -> Self;
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fn new_min<const SHALLOW: bool>(
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find: &FindMin<'_, '_, Self, SHALLOW>,
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def_id: LocalDefId,
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) -> Self;
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// Returns an over-approximation (`skip_assoc_tys` = true) of visibility due to
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// Returns an over-approximation (`SKIP_ASSOC_TYS` = true) of visibility due to
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// associated types for which we can't determine visibility precisely.
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fn of_impl(
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fn of_impl<const SHALLOW: bool>(
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def_id: LocalDefId,
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tcx: TyCtxt<'_>,
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effective_visibilities: &EffectiveVisibilities,
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) -> Self {
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let mut find = FindMin { tcx, effective_visibilities, min: Self::MAX };
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let mut find = FindMin::<_, SHALLOW> { tcx, effective_visibilities, min: Self::MAX };
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find.visit(tcx.type_of(def_id).subst_identity());
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if let Some(trait_ref) = tcx.impl_trait_ref(def_id) {
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find.visit_trait(trait_ref.subst_identity());
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@ -405,49 +393,28 @@ trait VisibilityLike: Sized {
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}
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impl VisibilityLike for ty::Visibility {
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const MAX: Self = ty::Visibility::Public;
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fn new_min(find: &FindMin<'_, '_, Self>, def_id: LocalDefId) -> Self {
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fn new_min<const SHALLOW: bool>(
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find: &FindMin<'_, '_, Self, SHALLOW>,
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def_id: LocalDefId,
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) -> Self {
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min(find.tcx.local_visibility(def_id), find.min, find.tcx)
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}
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}
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struct NonShallowEffectiveVis(EffectiveVisibility);
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impl VisibilityLike for NonShallowEffectiveVis {
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const MAX: Self = NonShallowEffectiveVis(EffectiveVisibility::from_vis(ty::Visibility::Public));
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const SHALLOW: bool = false;
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fn new_min(find: &FindMin<'_, '_, Self>, def_id: LocalDefId) -> Self {
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let find = FindMin {
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tcx: find.tcx,
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effective_visibilities: find.effective_visibilities,
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min: ShallowEffectiveVis(find.min.0),
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};
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NonShallowEffectiveVis(VisibilityLike::new_min(&find, def_id).0)
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}
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}
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struct ShallowEffectiveVis(EffectiveVisibility);
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impl VisibilityLike for ShallowEffectiveVis {
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const MAX: Self = ShallowEffectiveVis(EffectiveVisibility::from_vis(ty::Visibility::Public));
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// Type inference is very smart sometimes.
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// It can make an impl reachable even some components of its type or trait are unreachable.
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// E.g. methods of `impl ReachableTrait<UnreachableTy> for ReachableTy<UnreachableTy> { ... }`
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// can be usable from other crates (#57264). So we skip substs when calculating reachability
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// and consider an impl reachable if its "shallow" type and trait are reachable.
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//
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// The assumption we make here is that type-inference won't let you use an impl without knowing
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// both "shallow" version of its self type and "shallow" version of its trait if it exists
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// (which require reaching the `DefId`s in them).
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const SHALLOW: bool = true;
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fn new_min(find: &FindMin<'_, '_, Self>, def_id: LocalDefId) -> Self {
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impl VisibilityLike for EffectiveVisibility {
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const MAX: Self = EffectiveVisibility::from_vis(ty::Visibility::Public);
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fn new_min<const SHALLOW: bool>(
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find: &FindMin<'_, '_, Self, SHALLOW>,
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def_id: LocalDefId,
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) -> Self {
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let effective_vis =
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find.effective_visibilities.effective_vis(def_id).cloned().unwrap_or_else(|| {
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find.effective_visibilities.effective_vis(def_id).copied().unwrap_or_else(|| {
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let private_vis =
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ty::Visibility::Restricted(find.tcx.parent_module_from_def_id(def_id));
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EffectiveVisibility::from_vis(private_vis)
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});
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ShallowEffectiveVis(effective_vis.min(find.min.0, find.tcx))
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effective_vis.min(find.min, find.tcx)
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}
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}
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@ -785,12 +752,21 @@ impl<'tcx> Visitor<'tcx> for EmbargoVisitor<'tcx> {
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}
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}
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hir::ItemKind::Impl(ref impl_) => {
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let item_ev = ShallowEffectiveVis::of_impl(
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// Type inference is very smart sometimes. It can make an impl reachable even some
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// components of its type or trait are unreachable. E.g. methods of
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// `impl ReachableTrait<UnreachableTy> for ReachableTy<UnreachableTy> { ... }`
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// can be usable from other crates (#57264). So we skip substs when calculating
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// reachability and consider an impl reachable if its "shallow" type and trait are
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// reachable.
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//
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// The assumption we make here is that type-inference won't let you use an impl
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// without knowing both "shallow" version of its self type and "shallow" version of
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// its trait if it exists (which require reaching the `DefId`s in them).
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let item_ev = EffectiveVisibility::of_impl::<true>(
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item.owner_id.def_id,
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self.tcx,
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&self.effective_visibilities,
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)
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.0;
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);
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self.update_eff_vis(item.owner_id.def_id, item_ev, None, Level::Direct);
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@ -2154,27 +2130,28 @@ impl<'tcx> PrivateItemsInPublicInterfacesChecker<'tcx, '_> {
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DefKind::Impl { .. } => {
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let item = tcx.hir().item(id);
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if let hir::ItemKind::Impl(ref impl_) = item.kind {
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let impl_vis =
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ty::Visibility::of_impl(item.owner_id.def_id, tcx, &Default::default());
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let impl_vis = ty::Visibility::of_impl::<false>(
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item.owner_id.def_id,
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tcx,
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&Default::default(),
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);
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// we are using the non-shallow version here, unlike when building the
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// We are using the non-shallow version here, unlike when building the
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// effective visisibilities table to avoid large number of false positives.
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// For example:
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// For example in
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//
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// impl From<Priv> for Pub {
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// fn from(_: Priv) -> Pub {...}
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// }
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//
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// lints shouldn't be emmited even `from` effective visibility
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// is larger then `Priv` nominal visibility.
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let impl_ev = Some(
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NonShallowEffectiveVis::of_impl(
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// lints shouldn't be emmited even if `from` effective visibility
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// is larger than `Priv` nominal visibility and if `Priv` can leak
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// in some scenarios due to type inference.
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let impl_ev = Some(EffectiveVisibility::of_impl::<false>(
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item.owner_id.def_id,
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tcx,
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self.effective_visibilities,
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)
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.0,
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);
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));
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// check that private components do not appear in the generics or predicates of inherent impls
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// this check is intentionally NOT performed for impls of traits, per #90586
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